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arm-trusted-firmware/plat/nvidia/tegra/common/drivers/flowctrl/flowctrl.c
dp-arm 82cb2c1ad9 Use SPDX license identifiers 
To make software license auditing simpler, use SPDX[0] license
identifiers instead of duplicating the license text in every file.

NOTE: Files that have been imported by FreeBSD have not been modified.

[0]: https://spdx.org/

Change-Id: I80a00e1f641b8cc075ca5a95b10607ed9ed8761a
Signed-off-by: dp-arm <dimitris.papastamos@arm.com>
2017-05-03 09:39:28 +01:00

217 lines
6.6 KiB
C
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/*
* Copyright (c) 2015, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch_helpers.h>
#include <assert.h>
#include <debug.h>
#include <delay_timer.h>
#include <mmio.h>
#include <pmc.h>
#include <cortex_a53.h>
#include <flowctrl.h>
#include <tegra_def.h>
#define CLK_RST_DEV_L_SET 0x300
#define CLK_RST_DEV_L_CLR 0x304
#define CLK_BPMP_RST (1 << 1)
#define EVP_BPMP_RESET_VECTOR 0x200
static const uint64_t flowctrl_offset_cpu_csr[4] = {
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CPU0_CSR),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CPU1_CSR),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CPU1_CSR + 8),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CPU1_CSR + 16)
};
static const uint64_t flowctrl_offset_halt_cpu[4] = {
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_HALT_CPU0_EVENTS),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_HALT_CPU1_EVENTS),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_HALT_CPU1_EVENTS + 8),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_HALT_CPU1_EVENTS + 16)
};
static const uint64_t flowctrl_offset_cc4_ctrl[4] = {
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CC4_CORE0_CTRL),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CC4_CORE0_CTRL + 4),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CC4_CORE0_CTRL + 8),
(TEGRA_FLOWCTRL_BASE + FLOWCTRL_CC4_CORE0_CTRL + 12)
};
static inline void tegra_fc_cc4_ctrl(int cpu_id, uint32_t val)
{
mmio_write_32(flowctrl_offset_cc4_ctrl[cpu_id], val);
val = mmio_read_32(flowctrl_offset_cc4_ctrl[cpu_id]);
}
static inline void tegra_fc_cpu_csr(int cpu_id, uint32_t val)
{
mmio_write_32(flowctrl_offset_cpu_csr[cpu_id], val);
val = mmio_read_32(flowctrl_offset_cpu_csr[cpu_id]);
}
static inline void tegra_fc_halt_cpu(int cpu_id, uint32_t val)
{
mmio_write_32(flowctrl_offset_halt_cpu[cpu_id], val);
val = mmio_read_32(flowctrl_offset_halt_cpu[cpu_id]);
}
static void tegra_fc_prepare_suspend(int cpu_id, uint32_t csr)
{
uint32_t val;
val = FLOWCTRL_HALT_GIC_IRQ | FLOWCTRL_HALT_GIC_FIQ |
FLOWCTRL_HALT_LIC_IRQ | FLOWCTRL_HALT_LIC_FIQ |
FLOWCTRL_WAITEVENT;
tegra_fc_halt_cpu(cpu_id, val);
val = FLOWCTRL_CSR_INTR_FLAG | FLOWCTRL_CSR_EVENT_FLAG |
FLOWCTRL_CSR_ENABLE | (FLOWCTRL_WAIT_WFI_BITMAP << cpu_id);
tegra_fc_cpu_csr(cpu_id, val | csr);
}
/*******************************************************************************
* Powerdn the current CPU
******************************************************************************/
void tegra_fc_cpu_powerdn(uint32_t mpidr)
{
int cpu = mpidr & MPIDR_CPU_MASK;
VERBOSE("CPU%d powering down...\n", cpu);
tegra_fc_prepare_suspend(cpu, 0);
}
/*******************************************************************************
* Suspend the current CPU cluster
******************************************************************************/
void tegra_fc_cluster_idle(uint32_t mpidr)
{
int cpu = mpidr & MPIDR_CPU_MASK;
uint32_t val;
VERBOSE("Entering cluster idle state...\n");
tegra_fc_cc4_ctrl(cpu, 0);
/* hardware L2 flush is faster for A53 only */
tegra_fc_write_32(FLOWCTRL_L2_FLUSH_CONTROL,
!!MPIDR_AFFLVL1_VAL(mpidr));
/* suspend the CPU cluster */
val = FLOWCTRL_PG_CPU_NONCPU << FLOWCTRL_ENABLE_EXT;
tegra_fc_prepare_suspend(cpu, val);
}
/*******************************************************************************
* Power down the current CPU cluster
******************************************************************************/
void tegra_fc_cluster_powerdn(uint32_t mpidr)
{
int cpu = mpidr & MPIDR_CPU_MASK;
uint32_t val;
VERBOSE("Entering cluster powerdn state...\n");
tegra_fc_cc4_ctrl(cpu, 0);
/* hardware L2 flush is faster for A53 only */
tegra_fc_write_32(FLOWCTRL_L2_FLUSH_CONTROL,
read_midr() == CORTEX_A53_MIDR);
/* power down the CPU cluster */
val = FLOWCTRL_TURNOFF_CPURAIL << FLOWCTRL_ENABLE_EXT;
tegra_fc_prepare_suspend(cpu, val);
}
/*******************************************************************************
* Suspend the entire SoC
******************************************************************************/
void tegra_fc_soc_powerdn(uint32_t mpidr)
{
int cpu = mpidr & MPIDR_CPU_MASK;
uint32_t val;
VERBOSE("Entering SoC powerdn state...\n");
tegra_fc_cc4_ctrl(cpu, 0);
tegra_fc_write_32(FLOWCTRL_L2_FLUSH_CONTROL, 1);
val = FLOWCTRL_TURNOFF_CPURAIL << FLOWCTRL_ENABLE_EXT;
tegra_fc_prepare_suspend(cpu, val);
/* overwrite HALT register */
tegra_fc_halt_cpu(cpu, FLOWCTRL_WAITEVENT);
}
/*******************************************************************************
* Power up the CPU
******************************************************************************/
void tegra_fc_cpu_on(int cpu)
{
tegra_fc_cpu_csr(cpu, FLOWCTRL_CSR_ENABLE);
tegra_fc_halt_cpu(cpu, FLOWCTRL_WAITEVENT | FLOWCTRL_HALT_SCLK);
}
/*******************************************************************************
* Power down the CPU
******************************************************************************/
void tegra_fc_cpu_off(int cpu)
{
uint32_t val;
/*
* Flow controller powers down the CPU during wfi. The CPU would be
* powered on when it receives any interrupt.
*/
val = FLOWCTRL_CSR_INTR_FLAG | FLOWCTRL_CSR_EVENT_FLAG |
FLOWCTRL_CSR_ENABLE | (FLOWCTRL_WAIT_WFI_BITMAP << cpu);
tegra_fc_cpu_csr(cpu, val);
tegra_fc_halt_cpu(cpu, FLOWCTRL_WAITEVENT);
tegra_fc_cc4_ctrl(cpu, 0);
}
/*******************************************************************************
* Inform the BPMP that we have completed the cluster power up
******************************************************************************/
void tegra_fc_lock_active_cluster(void)
{
uint32_t val;
val = tegra_fc_read_32(FLOWCTRL_BPMP_CLUSTER_CONTROL);
val |= FLOWCTRL_BPMP_CLUSTER_PWRON_LOCK;
tegra_fc_write_32(FLOWCTRL_BPMP_CLUSTER_CONTROL, val);
val = tegra_fc_read_32(FLOWCTRL_BPMP_CLUSTER_CONTROL);
}
/*******************************************************************************
* Reset BPMP processor
******************************************************************************/
void tegra_fc_reset_bpmp(void)
{
uint32_t val;
/* halt BPMP */
tegra_fc_write_32(FLOWCTRL_HALT_BPMP_EVENTS, FLOWCTRL_WAITEVENT);
/* Assert BPMP reset */
mmio_write_32(TEGRA_CAR_RESET_BASE + CLK_RST_DEV_L_SET, CLK_BPMP_RST);
/* Restore reset address (stored in PMC_SCRATCH39) */
val = tegra_pmc_read_32(PMC_SCRATCH39);
mmio_write_32(TEGRA_EVP_BASE + EVP_BPMP_RESET_VECTOR, val);
while (val != mmio_read_32(TEGRA_EVP_BASE + EVP_BPMP_RESET_VECTOR))
; /* wait till value reaches EVP_BPMP_RESET_VECTOR */
/* Wait for 2us before de-asserting the reset signal. */
udelay(2);
/* De-assert BPMP reset */
mmio_write_32(TEGRA_CAR_RESET_BASE + CLK_RST_DEV_L_CLR, CLK_BPMP_RST);
/* Un-halt BPMP */
tegra_fc_write_32(FLOWCTRL_HALT_BPMP_EVENTS, 0);
}
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